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Modelling and strength prediction of pre-tensioned hybrid bonded joints for structural steel applications

Till Vallée, Holger Fricke, Sebastian Myslicki, Marvin Kaufmann, Morten Voß, Christian Denkert, Ralf Glienke, Maik Dörre, M.ASCE David J. Henkel, Thomas Gerke

2021The Journal of Adhesion28 citationsDOI

Abstract

Strength prediction of bonded joints remains a challenging task made even further complicated for hybrid joints in which adhesive is supplemented by mechanical fasteners. The present paper complements a series of experimental investigations on hybrid joints combining adhesive bonding with pre-tensioned bolts on galvanised and coated steel substrates, and considering two adhesives. The paper starts with modelling the strength of the bonded connection under the simultaneous action of tensile and compressive normal stresses, and shear. It then presents how these data are moulded into appropriate failure criteria and used the latter as input data for a subsequent full probabilistic finite element analysis. Following the paths of Weibull and subsequent researchers, joint capacity is predicted with reasonable accuracy for a dozen different combinations of substrates, adhesive, and pre-tension level – for which, on average, an accuracy slightly below 10% has been achieved. The results deliver meaningful insights into the subtle relationship between adhesive bonding, mechanical fastening, failure criteria, and resulting predictions methods.

Topics & Concepts

Materials scienceAdhesiveJoint (building)Ultimate tensile strengthFinite element methodStructural engineeringWeibull distributionAdhesive bondingComposite materialShear strength (soil)Bolted jointShear (geology)Tension (geology)EngineeringLayer (electronics)Soil waterEnvironmental scienceStatisticsMathematicsSoil scienceMechanical Behavior of CompositesStructural Load-Bearing AnalysisFatigue and fracture mechanics
Modelling and strength prediction of pre-tensioned hybrid bonded joints for structural steel applications | Litcius